/** * Contains the shared data that is used by all SkeletalMeshComponents (instances). * Copyright 1998-2013 Epic Games, Inc. All Rights Reserved. */ class SkeletalMesh extends Object native(SkeletalMesh) noexport dependson(ApexClothingAsset) hidecategories(Object); var() const native BoxSphereBounds Bounds; /** List of materials applied to this mesh. */ var() const native array Materials; /** List of clothing assets associated with each material int this mesh. */ var() editfixedsize array ClothingAssets; struct native ApexClothingLodInfo { /** The mesh section that the clothing submesh will override. */ var() editfixedsize array ClothingSectionInfo; }; struct native ApexClothingAssetInfo { /** Graphical Lod Info for the clothing asset */ var() editfixedsize array ClothingLodInfo; /** Clothing Asset Name */ var Name ClothingAssetName; }; /** List of Clothing LOD and the mapping of clothing to skeletal mesh section */ var() editfixedsize array ClothingLodMap; /** Origin in original coordinate system */ var() const native vector Origin; /** Amount to rotate when importing (mostly for yawing) */ var() const native rotator RotOrigin; var const native array RefSkeleton; // FMeshBone var const native int SkeletalDepth; var const native map{FName,INT} NameIndexMap; var const native private IndirectArray_Mirror LODModels; // FStaticLODModel var const native private pointer SourceData; // FSkeletalMeshSourceData var const native array RefBasesInvMatrix; struct native BoneMirrorInfo { /** The bone to mirror. */ var() int SourceIndex ; /** Axis the bone is mirrored across. */ var() EAxis BoneFlipAxis; }; /** Structure to export/import bone mirroring information */ struct native BoneMirrorExport { var() Name BoneName; var() Name SourceBoneName; var() EAxis BoneFlipAxis; }; /** List of bones that should be mirrored. */ var() editfixedsize array SkelMirrorTable; var() EAxis SkelMirrorAxis; var() EAxis SkelMirrorFlipAxis; var array Sockets; /** Array of bone names that break for use in game/editor */ var() editconst const native array BoneBreakNames; enum BoneBreakOption { BONEBREAK_SoftPreferred, BONEBREAK_AutoDetect, BONEBREAK_RigidPreferred }; /** Array of options that break bones for use in game/editor */ /** Match with BoneBreakNames array **/ var() const native array BoneBreakOptions; enum TriangleSortOption { TRISORT_None, //0 TRISORT_CenterRadialDistance, //1 TRISORT_Random, //2 TRISORT_MergeContiguous, //3 TRISORT_Custom, //4 TRISORT_CustomLeftRight, //5 }; /** Enum indicating which method to use to generate per-vertex cloth vert movement scale (ClothMovementScale) */ enum ClothMovementScaleGen { ECMDM_DistToFixedVert, ECMDM_VertexBoneWeight, ECMDM_Empty, }; /** Enum to specify which axis to use for the forward vector when using TRISORT_CustomLeftRight sort mode */ enum TriangleSortAxis { TSA_X_Axis, TSA_Y_Axis, TSA_Z_Axis, }; /** Struct containing triangle sort settings for a particular section */ struct TriangleSortSettings { var() TriangleSortOption TriangleSorting; var() TriangleSortAxis CustomLeftRightAxis; var() name CustomLeftRightBoneName; }; /** Struct containing information for a particular LOD level, such as materials and info for when to use it. */ struct native SkeletalMeshLODInfo { /** Indicates when to use this LOD. A smaller number means use this LOD when further away. */ var() float DisplayFactor; /** Used to avoid 'flickering' when on LOD boundary. Only taken into account when moving from complex->simple. */ var() float LODHysteresis; /** Mapping table from this LOD's materials to the SkeletalMesh materials array. */ var() editfixedsize array LODMaterialMap; /** Per-section control over whether to enable shadow casting. */ var() editfixedsize array bEnableShadowCasting; /** Per-section sorting options */ var deprecated array TriangleSorting; var() editfixedsize array TriangleSortSettings; /** Use compressed position XYZs(4 bytes saving 8 bytes). This is only useful for GPU skinning.*/ var() bool bDisableCompressions; /** Whether to disable morph targets for this LOD. */ var bool bHasBeenSimplified; }; /** Struct containing information for each LOD level, such as materials to use, whether to cast shadows, and when use the LOD. */ var() editfixedsize array LODInfo; /** Enum specifying the importance of properties when simplifying skeletal meshes. */ enum SkeletalMeshOptimizationImportance { SMOI_Off, SMOI_Lowest, SMOI_Low, SMOI_Normal, SMOI_High, SMOI_Highest }; /** Enum specifying the reduction type to use when simplifying skeletal meshes. */ enum SkeletalMeshOptimizationType { SMOT_NumOfTriangles, SMOT_MaxDeviation, SMOT_MAX, }; /** Enum specifying how to generate normals when simplifying skeletal meshes. */ enum SkeletalMeshOptimizationNormalMode { SMONM_Recalculate, SMONM_RecalculateSoft, SMONM_RecalculateHard }; /** * FSkeletalMeshOptimizationSettings - The settings used to optimize a skeletal mesh LOD. */ struct native SkeletalMeshOptimizationSettings { /**If ReductionMethod equals SMOT_MaxDeviation this value is the maximum deviation from the base mesh as a percentage of the bounding sphere. */ var float MaxDeviationPercentage; /** How important the shape of the geometry is. */ var SkeletalMeshOptimizationImportance SilhouetteImportance; /** How important texture density is. */ var SkeletalMeshOptimizationImportance TextureImportance; /** How important shading quality is. */ var SkeletalMeshOptimizationImportance ShadingImportance; /** How important skinning quality is. */ var SkeletalMeshOptimizationImportance SkinningImportance; /** How to compute normals for the optimized mesh. */ var deprecated SkeletalMeshOptimizationNormalMode NormalMode; /** The ratio of bones that will be removed from the mesh */ var float BoneReductionRatio; /** Maximum number of bones that can be assigned to each vertex. */ var int MaxBonesPerVertex; /** The method to use when optimizing the skeletal mesh LOD */ var SkeletalMeshOptimizationType ReductionMethod; /** If ReductionMethod equals SMOT_NumOfTriangles this value is the ratio of triangles [0-1] to remove from the mesh */ var float NumOfTrianglesPercentage; /** The welding threshold distance. Vertices under this distance will be welded. */ var float WeldingThreshold; /** Whether Normal smoothing groups should be preserved. If false then NormalsThreshold is used **/ var bool bRecalcNormals; /** If the angle between two triangles are above this value, the normals will not be smooth over the edge between those two triangles. Set in degrees. This is only used when PreserveNormals is set to false*/ var float NormalsThreshold; }; /** Optimization settings used to simplify LODs of this mesh. */ var array OptimizationSettings; /** For each bone specified here, all triangles rigidly weighted to that bone are entered into a kDOP, allowing per-poly collision checks. */ var() array PerPolyCollisionBones; /** For each of these bones, find the parent that is in PerPolyCollisionBones and add its polys to that bone. */ var() array AddToParentPerPolyCollisionBone; /** * KDOP tree's used for storing rigid triangle information for a subset of bones. * Length of this array matches PerPolyCollisionBones */ var private const native array PerPolyBoneKDOPs; /** If true, include triangles that are soft weighted to bones. */ var() bool bPerPolyUseSoftWeighting; /** If true, use PhysicsAsset for line collision checks. If false, use per-poly bone collision (if present). */ var() bool bUseSimpleLineCollision; /** If true, use PhysicsAsset for extent (swept box) collision checks. If false, use per-poly bone collision (if present). */ var() bool bUseSimpleBoxCollision; /** All meshes default to GPU skinning. Set to True to enable CPU skinning. If CPU skinning is enabled, bUsePackedPosition can't be enabled */ var() const bool bForceCPUSkinning; /** If true, use 32 bit UVs. If false, use 16 bit UVs to save memory */ var() const bool bUseFullPrecisionUVs; /** TRUE if this mesh has ever been simplified with Simplygon. */ var bool bHasBeenSimplified; /** The FaceFX asset the skeletal mesh uses for FaceFX operations. */ var() FaceFXAsset FaceFXAsset; /** Asset used for previewing bounds in AnimSetViewer. Makes setting up LOD distance factors more reliable. */ var() editoronly PhysicsAsset BoundsPreviewAsset; /** Asset used for previewing morph target animations in AnimSetViewer. Only for editor. */ var() editoronly array PreviewMorphSets; /** LOD bias to use for PC. */ var() int LODBiasPC; /** LOD bias to use for PS3. */ var() int LODBiasPS3; /** LOD bias to use for Xbox 360. */ var() int LODBiasXbox360; //@zombie_ps4_begin /** LOD bias to use for Orbis. */ var() int LODBiasOrbis; //@zombie_ps4_end /** Path to the resource used to construct this skeletal mesh */ var() const editconst editoronly string SourceFilePath; /** Date/Time-stamp of the file from the last import */ var() const editconst editoronly string SourceFileTimestamp; /** Cache of ClothMesh objects at different scales. */ var const native transient array ClothMesh; /** Scale of each of the ClothMesh objects in cache. This array is same size as ClothMesh. */ var const native transient array ClothMeshScale; /** * Mapping between each vertex in the simulation mesh and the graphics mesh. * This is ordered so that 'free' vertices are first, and then after NumFreeClothVerts they are 'fixed' to the skinned mesh. */ var const array ClothToGraphicsVertMap; /** Scaling (per vertex) for how far cloth vert can move from its animated position */ var const array ClothMovementScale; /** Method to use to generate the ClothMovementScale table */ var(Cloth) ClothMovementScaleGen ClothMovementScaleGenMode; /** How far a simulated vertex can move from its animated location */ var(Cloth) float ClothToAnimMeshMaxDist; /** If TRUE, simulated verts are limited to a certain distance from */ var(Cloth) bool bLimitClothToAnimMesh; /** * Mapping from index of rendered mesh to index of simulated mesh. * This mapping applies before ClothToGraphicsVertMap which can then operate normally * The reason for this mapping is to weld several vertices with the same position but different texture coordinates into one * simulated vertex which makes it possible to run closed meshes for cloth. */ var const array ClothWeldingMap; /** * This is the highest value stored in ClothWeldingMap */ var const int ClothWeldingDomain; /** * This will hold the indices to the reduced number of cloth vertices used for cooking the NxClothMesh. */ var const array ClothWeldedIndices; /** * Forces the Welding Code to be turned off even if the mesh has doubled vertices */ var(ClothAdvanced) const bool bForceNoWelding; /** Point in the simulation cloth vertex array where the free verts finish and we start having 'fixed' verts. */ var const int NumFreeClothVerts; /** Index buffer for simulation cloth. */ var const array ClothIndexBuffer; /** Vertices with any weight to these bones are considered 'cloth'. */ var(Cloth) const array ClothBones; /** If greater than 1, will generate smaller meshes internally, used to improve simulation time and reduce stretching. */ var(Cloth) const int ClothHierarchyLevels; /** Enable constraints that attempt to minimize curvature or folding of the cloth. */ var(Cloth) const bool bEnableClothBendConstraints; /** Enable damping forces on the cloth. */ var(Cloth) const bool bEnableClothDamping; /** Enable center of mass damping of cloth internal velocities. */ var(Cloth) const bool bUseClothCOMDamping; /** Controls strength of springs that attempts to keep particles in the cloth together. */ var(Cloth) const float ClothStretchStiffness ; /** * Controls strength of springs that stop the cloth from bending. * bEnableClothBendConstraints must be true to take affect. */ var(Cloth) const float ClothBendStiffness ; /** * This is multiplied by the size of triangles sharing a point to calculate the points mass. * This cannot be modified after the cloth has been created. */ var(Cloth) const float ClothDensity; /** How thick the cloth is considered when doing collision detection. */ var(Cloth) const float ClothThickness; /** * Controls how much damping force is applied to cloth particles. * bEnableClothDamping must be true to take affect. */ var(Cloth) const float ClothDamping ; /** Increasing the number of solver iterations improves how accurately the cloth is simulated, but will also slow down simulation. */ var(Cloth) const int ClothIterations; /** If ClothHierarchyLevels is more than 0, this number controls the number of iterations of the hierarchical solver. */ var(Cloth) const int ClothHierarchicalIterations; /** Controls movement of cloth when in contact with other bodies. */ var(Cloth) const float ClothFriction ; /** * Controls the size of the grid cells a cloth is divided into when performing broadphase collision. * The cell size is relative to the AABB of the cloth. */ var(ClothAdvanced) const float ClothRelativeGridSpacing; /** Adjusts the internal "air" pressure of the cloth. Only has affect when bEnableClothPressure. */ var(ClothAdvanced) const float ClothPressure; /** Response coefficient for cloth/rb collision */ var(ClothAdvanced) const float ClothCollisionResponseCoefficient; /** How much an attachment to a rigid body influences the cloth */ var(ClothAdvanced) const float ClothAttachmentResponseCoefficient; /** How much extension an attachment can undergo before it tears/breaks */ var(ClothAdvanced) const float ClothAttachmentTearFactor; /** * Maximum linear velocity at which cloth can go to sleep. * If negative, the global default will be used. */ var(ClothAdvanced) const float ClothSleepLinearVelocity; /** If bHardStretchLimit is TRUE, how much stretch is allowed in the cloth. 1.0 is no stretch (but will cause jitter) */ var(Cloth) const float HardStretchLimitFactor; /** * If TRUE, limit the total amount of stretch that is allowed in the cloth, based on HardStretchLimitFactor. * Note that bLimitClothToAnimMesh must be TRUE for this to work. */ var(Cloth) const bool bHardStretchLimit; /** Enable orthogonal bending resistance to minimize curvature or folding of the cloth. * This technique uses angular springs instead of distance springs as used in * 'bEnableClothBendConstraints'. This mode is slower but independent of stretching resistance. */ var(ClothAdvanced) const bool bEnableClothOrthoBendConstraints; /** Enables cloth self collision. */ var(ClothAdvanced) const bool bEnableClothSelfCollision; /** Enables pressure support. Simulates inflated objects like balloons. */ var(ClothAdvanced) const bool bEnableClothPressure; /** Enables two way collision with rigid-bodies. */ var(ClothAdvanced) const bool bEnableClothTwoWayCollision; /** Cloth bone type, used when attaching to the physics asset. */ enum ClothBoneType { CLOTHBONE_Fixed, //0 CLOTHBONE_BreakableAttachment, //1 CLOTHBONE_TearLine //2 }; /** Used to specify a set of special cloth bones which are attached to the physics asset */ struct native ClothSpecialBoneInfo { /** The bone name to attach to a cloth vertex */ var() name BoneName; /** The type of attachment */ var() ClothBoneType BoneType; /** Array used to cache cloth indices which will be attached to this bone, created in BuildClothMapping(), * Note: These are welded indices. */ var const array AttachedVertexIndices; }; /** * Vertices with any weight to these bones are considered cloth with special behavoir, currently * they are attached to the physics asset with fixed or breakable attachments or tearlines. */ var(ClothAdvanced) const array ClothSpecialBones; /** * Enable cloth line/extent/point checks. * Note: line checks are performed with a raycast against the cloth, but point and swept extent checks are performed against the cloth AABB */ var(Cloth) const bool bEnableClothLineChecks; /** * Whether cloth simulation should be wrapped inside a Rigid Body and only be used upon impact */ var(ClothAdvanced) const bool bClothMetal; /** Threshold for when deformation is allowed */ var(ClothAdvanced) const float ClothMetalImpulseThreshold; /** Amount by which colliding objects are brought closer to the cloth */ var(ClothAdvanced) const float ClothMetalPenetrationDepth; /** Maximum deviation of cloth particles from initial position */ var(ClothAdvanced) const float ClothMetalMaxDeformationDistance; /** * Used to enable cloth tearing. Note, extra vertices/indices must be reserved using ClothTearReserve * Also cloth tearing is not available when welding is enabled. */ var(Cloth) const bool bEnableClothTearing; /** Stretch factor beyond which a cloth edge/vertex will tear. Should be greater than 1. */ var(Cloth) const float ClothTearFactor; /** Number of vertices/indices to set aside to accomodate new triangles created as a result of tearing */ var(Cloth) const int ClothTearReserve; /** Any cloth vertex that exceeds its valid bounds will be deleted if bEnableValidBounds is set. Tune ValidBoundMin and ValidBoundMax if valid bound is enabled.*/ var(Cloth) bool bEnableValidBounds; /** The minimum coordinates triplet of the cloth valid bound */ var(Cloth) Vector ValidBoundsMin; /** The maximum coordinates triplet of the cloth valid bound */ var(Cloth) Vector ValidBoundsMax; `if(`isdefined(WITH_PHYSX)) struct native Sphere { var() Vector Center; var() float Radius; }; /** Only for PhysX 3.x. Need to explicitly add spheres or capsules to the cloth collision system. An array of spheres colliding with this cloth*/ var(ClothCollisionData) array< Sphere > ClothCollisionSpheres; /** Only for PhysX 3.x. Capsule indices (into the ClothCollisionSpheres array). E.g: A pair of (0, 1) will create 1 capsule from sphere 0 and sphere 1 in the ClothCollisionSpheres. Another pair of (1, 2) will create another capsule from sphere 1 and sphere 2. Can contain spheres with different radii to create tapered capsules.*/ var(ClothCollisionData) array ClothCollisionCapsuleIndices; //LOC_MOD revisit unsigned int `endif /** Map which maps from a set of 3 triangle indices packet in a 64bit to the location in the index buffer, * Used to update indices for torn triangles. * Note: This structure is lazy initialized when a torn cloth mesh is created. (But could be precomputed * in BuildClothMapping() if serialization is handled correctly). */ var const native Map_Mirror ClothTornTriMap {TMap}; struct native SoftBodyTetraLink { var int Index; var vector Bary; }; /** Mapping between each vertex of the simulated soft-body's surface-mesh and the graphics mesh. */ var const array SoftBodySurfaceToGraphicsVertMap; /** Index buffer of the triangles of the soft-body's surface mesh. Indices refer to entries in SoftBodySurfaceToGraphicsVertMap. */ var const array SoftBodySurfaceIndices; /** Base array of tetrahedron vertex positions. Used to generate the scaled versions from. */ var const array SoftBodyTetraVertsUnscaled; /** Index buffer of the tetrahedra of the soft-body's tetra-mesh. Indices refer to the vertices in SoftBodyTetraVertsUnscaled.*/ var const array SoftBodyTetraIndices; /** Mapping between each vertex of the surface-mesh and its tetrahedron, with local positions given in barycentric coordinates. */ var const array SoftBodyTetraLinks; /** Cache of pointers to NxSoftBodyMesh objects at different scales. */ var const native transient array CachedSoftBodyMeshes; /** Scale of each of the NxSoftBodyMesh objects in cache. This array is same size as CachedSoftBodyMeshes. */ var const native transient array CachedSoftBodyMeshScales; /** Vertices with any weight to these bones are considered 'soft-body'. */ var(SoftBody) const array SoftBodyBones; /** Cloth bone type, used when attaching to the physics asset. */ enum SoftBodyBoneType { SOFTBODYBONE_Fixed, //0 SOFTBODYBONE_BreakableAttachment, //1 SOFTBODYBONE_TwoWayAttachment, //2 }; /** Used to specify a set of special softbody bones which are attached to the physics asset */ struct native SoftBodySpecialBoneInfo { /** The bone name to attach to a cloth vertex */ var() name BoneName; /** The type of attachment */ var() SoftBodyBoneType BoneType; /** Array used to cache softbody indices which will be attached to this bone, created in BuildSoftBodyMapping(), * Note: These are welded indices. */ var const array AttachedVertexIndices; }; /** * Vertices with any weight to these bones are considered softbody with special behavoir, currently * they are attached to the physics asset with fixed or breakable attachments. */ var(SoftBody) const array SoftBodySpecialBones; /** Defines how strongly the soft-body resists motion that changes the rest volume. Range (0,1]. */ var(SoftBody) const float SoftBodyVolumeStiffness; /** Defines how strongly the soft-body resists stretching motions. Range (0,1]. */ var(SoftBody) const float SoftBodyStretchingStiffness; /** Density of the soft-body (mass per volume). */ var(SoftBody) const float SoftBodyDensity; /** Size of the soft-body particles used for collision detection. */ var(SoftBody) const float SoftBodyParticleRadius; /** * Controls how much damping force is applied to soft-body particles. * bEnableSoftBodyDamping must be true to take affect. */ var(SoftBody) const float SoftBodyDamping; /** Increasing the number of solver iterations improves how accurately the soft-body is simulated, but will also slow down simulation. */ var(SoftBody) const int SoftBodySolverIterations; /** Controls movement of soft-body when in contact with other bodies. */ var(SoftBody) const float SoftBodyFriction; /** * Controls the size of the grid cells a soft-body is divided into when performing broadphase collision. * The cell size is relative to the AABB of the soft-body. */ var(SoftBody) const float SoftBodyRelativeGridSpacing; /** * Maximum linear velocity at which a soft-body can go to sleep. * If negative, the global default will be used. */ var(SoftBody) const float SoftBodySleepLinearVelocity; /** Enables soft-body self collision. */ var(SoftBody) const bool bEnableSoftBodySelfCollision; /** * Defines a factor for the impulse transfer from the soft body to attached rigid bodies. * bEnableSoftBodyTwoWayCollision must be true to take effect. */ var(SoftBody) const float SoftBodyAttachmentResponse; /** * Defines a factor for the impulse transfer from the soft body to colliding rigid bodies. * bEnableSoftBodyTwoWayCollision must be true to take effect. */ var(SoftBody) const float SoftBodyCollisionResponse; /** * Controls how much the original graphics mesh is simplified before it is used * to seed to tetrahedron-mesh generator. */ var(SoftBody) const float SoftBodyDetailLevel; /** Controls how many tetrahedra are generated to approximate the surface-mesh. */ var(SoftBody) const int SoftBodySubdivisionLevel; /** If enabled, an iso-surface is generated around the original graphics-mesh before * the tetrahedron-mesh is created. */ var(SoftBody) const bool bSoftBodyIsoSurface; /** Enable damping forces on the softbody. */ var(SoftBody) const bool bEnableSoftBodyDamping; /** Enable center of mass damping of SoftBody internal velocities. */ var(SoftBody) const bool bUseSoftBodyCOMDamping; /** Specifies the maximum distance a tetra-vertex is allowed to have from the * surface-mesh to still end up attached to a bone. */ var(SoftBody) const float SoftBodyAttachmentThreshold; /** Enables two way collision with rigid-bodies. */ var(SoftBody) const bool bEnableSoftBodyTwoWayCollision; /** How much extension an attachment can undergo before it tears/breaks */ var(SoftBody) const float SoftBodyAttachmentTearFactor; /** Enable soft body line checks. */ var(SoftBody) const bool bEnableSoftBodyLineChecks; /** Whether or not the mesh has vertex colors */ var bool bHasVertexColors; /** Saves if Graphics Vertex is simulated cloth or not */ var const native array GraphicsIndexIsCloth; /** The cached streaming texture factors. If the array doesn't have MAX_TEXCOORDS entries in it, the cache is outdated. */ var const native array CachedStreamingTextureFactors; /** * Allows artists to adjust the distance where textures using UV 0 are streamed in/out. * 1.0 is the default, whereas a higher value increases the streamed-in resolution. */ var() const float StreamingDistanceMultiplier; var const native transient int ReleaseResourcesFence; /** Runtime UID for this SkeletalMeshm, used when linking meshes to AnimSets. */ var const transient qword SkelMeshRUID; /** When enabled the material in the APEX clothing asset will override the skeletal mesh material. */ var(ApexClothing) const bool bUseClothingAssetMaterial; defaultproperties { SkelMirrorAxis=AXIS_X SkelMirrorFlipAxis=AXIS_Z // Cloth params ClothThickness = 0.5 ClothDensity = 1.0 ClothBendStiffness = 1.0 ClothStretchStiffness = 1.0 ClothDamping = 0.5 ClothFriction = 0.5 ClothIterations = 2 ClothHierarchicalIterations = 2 HardStretchLimitFactor = 1.1 ClothMovementScaleGenMode=ECMDM_DistToFixedVert bUseSimpleLineCollision=true bUseSimpleBoxCollision=true bEnableClothOrthoBendConstraints = FALSE bEnableClothSelfCollision = FALSE bEnableClothPressure = FALSE bEnableClothTwoWayCollision = FALSE bForceNoWelding = FALSE ClothRelativeGridSpacing = 1.0 ClothPressure = 1.0 ClothCollisionResponseCoefficient = 0.2 ClothAttachmentResponseCoefficient = 0.2 ClothAttachmentTearFactor = 1.5 ClothSleepLinearVelocity =-1.0 ClothMetalImpulseThreshold=10.0 ClothMetalPenetrationDepth=0.0 ClothMetalMaxDeformationDistance=0.0 bEnableClothTearing = FALSE ClothTearFactor = 3.5 ClothTearReserve = 128 bEnableValidBounds=FALSE ValidBoundsMin=(X=0,Y=0,Z=0) ValidBoundsMax=(X=0,Y=0,Z=0) SoftBodyVolumeStiffness = 1.0; SoftBodyStretchingStiffness = 1.0; SoftBodyDensity = 1.0; SoftBodyParticleRadius = 0.1; SoftBodyDamping = 0.5; SoftBodySolverIterations = 5; SoftBodyFriction = 0.5 SoftBodyRelativeGridSpacing = 1.0 SoftBodySleepLinearVelocity = -1.0 bEnableSoftBodySelfCollision = FALSE SoftBodyAttachmentResponse = 0.2; SoftBodyCollisionResponse = 0.2; SoftBodyDetailLevel = 0.5f; SoftBodySubdivisionLevel = 4 bSoftBodyIsoSurface = TRUE SoftBodyAttachmentThreshold = 0.5; bEnableSoftBodyTwoWayCollision = TRUE; SoftBodyAttachmentTearFactor = 1.5; StreamingDistanceMultiplier = 1.0; }